基于扰动观测器的武器站伺服运动控制OA
Weapon Station Servo Motion Control Based on Disturbance Observer
为提高武器站的动态跟踪和瞄准射击精度,提出基于扰动观测器的武器站伺服运动控制解决方案.建立武器站射击过程的动力学模型和伺服控制模型,对射击产生的干扰通过扰动观测器进行估计等效,以补偿信号送至被控对象的输入端进行控制,以提高武器站伺服运动控制的精度.结合武器站典型作战应用剖面,在不同目标特性伺服跟踪和射击工况下,进行建模和仿真试验.仿真结果表明,武器站伺服运动控制精度得到有效提升,该模型具有创新性与工程应用价值.
In order to improve the dynamic tracking,aiming and firing accuracy of weapon station,a solution of weapon station servo motion control based on disturbance observer is proposed.The dynamic model and the servo control model of the weapon station in the firing process are established,and the disturbance produced by the firing is estimated and equivalent by the disturbance observer,and the compensation signal is sent to the input of the controlled object for control,so as to improve the accuracy of the servo motion control of the weapon station.Combined with the typical operational application profile of the weapon station,the modeling and simulation experiments are carried out under different target characteristics,servo tracking and firing conditions.The simulation results show that the accuracy of the weapon station servo motion control is effectively improved,and the model has innovative and engineering application value.
张俊勇;甘代伟
陕西国防工业职业技术学院智能制造学院 西安 710300陕西国防工业职业技术学院智能制造学院 西安 710300
信息技术与安全科学
武器站射击扰动观测器伺服运动控制
weapon stationfiringdisturbance observerservo motion control
《兵工自动化》 2026 (6)
95-99,107,6
2021 年陕西高等职业教育教学改革研究项目(21GG011)
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